Fruit-feeding machine.



. B. L J. PHASE.

FRUIT msnm@ MACHINE.

APPLIOATIOH FILED DEO,B, X912. slg o Patented Seph 1, 1914.

3 SHEETS-SHEET 1V vnr Numan P1 rlu Co mmm Anno, wAmnNcrmv n F. B. J. W. PHASE. FRUIT FEEDING MACHINE.

APPLIOATION FILED DEO.6.1912. 1,109,541, Patented Sspt.1,1914.

3 SHEETB- SHEET 2.

C Wm @WH WWW@ nu' Noun/s Flinn co, Nom 1 HNO. wrmlNnmN U t.

F. B. J. W. PHASE.

YRUT YEEDING MACHINE.

MPmonxon rxLsn Dn0.s.1s12.

E ge Patented Sept.1,1914.

3 SHEETS-SHEET 3.

fur mums u "un my, mmm x nun wamumunm n l UNITED STATES rATENT oEEIcE.

FRANKLIN B. PEASE'AND l.TOEN W. PEASE, OF ROCHESTER, NEW YORK.

FRUIT-FEEDING MACHINE.

Specification of Letter: Patent.

Patented Sept. 1, 1914.

Application tiled December 6. 1912. Serial No. 735,315.

To all echo/1L 'it may concern.

Be it known that we, Fin-mams B. -PEASE and Jeux W. lnasu, citizens of the United States, and residents of Rochester, in the county ot h'lonroe and State, of New York, have invented certain new and useful lmprovements in l"ruit-l `ceding ltiachines, of which the. following is a specification.

rlhis invention relates to machines by which apples, or other fruit, may be fed, one by one, to n machine for paring or otherwise operating upon the fruit.

ln feeding apples to a paring-machine. it is necessary that they bc presented to the. lork of the machine with their core-axes substantially in line with the axis of rotation of the fork. lt has heretofore been proposed to produce this result by making use of the fact that au apple, when floated in water, will automatically assume a position with its core-axis vertical. ln the pending applications of John W. Pease, one of the applicants herein, Serial No. 619,195, filed April 5, 1911. and Serial No. (363,182, filed November 2S), 1911, machines are disclosed which operate upon this principle, these machines being provided with endless conveyers carrying fruit-holders which are brought successively into and out of a receptacle adapted to contain water, so that the apples within the holders may be floated and caused to assume definite positions inthe holders. 'lhe present application relates partlyto improvements in machines of this typo, and one. object of thc invention is to produce. a machine iawhieh only the fruit-holders are immersed in the water, the endless conveyer being so arranged as not to enter the water.

ISO

To this end, in the present machine, we arrange the convcyer entirely above the water-receptacle. in such a position that the fruit-holders are immersed in the receptacle only at the lowermost part of their path of movement.

Another object of the present invention is to provide for transferring the fruit more positively from the fruit-holders to the fork or other instrumentality of the machine with which the feeding-machine coperates. To this end we employ means engaging the fruit firmly at both ends of its core-axis during the transferring movement, so that the fruit. is held firmly against any angular movement of its core-axis at this time.

A third object of the invention is to simplify the mechanism of the machine as a whole, and to this end we employ, among other features of construction hereinafter set forth, an endless conveyor in the form of a rotary member or wheel, upon the periphery of which the fruit-holders are mounted; and, in order that the fruit-holders may operate properly in connection with such a conveyor, we mount the fruit-holders there,- on at such an angle that they are, at their time of emergence from the water-receptacle, in a position in which their axes are substantially vertical.

Other objects of the invention, and thc features of construction by which they are attained, will be set forth in connection with the following description of the preferred embodiment of the invention.

In the accompanying drawings z-F igure 1 is a front-elevation of a machine embodying the present invention, with certain parts broken away to show the construction more clearly; Fig. 2 is a front-elevation, on a larger scale, of a portion of the machine, in a different operative position from Fig. 1, illustrating particularly the means for transferring an apple to the fork of a paring-machine; Fi". 3 is a detail-view showing, in horizonta section, one of the fruitholdcrs and portions of the adjacent mechanism; 'Fi 4 is a section on the line 4 1.- in Fig. 3: iig. 5 is a plan-view of the entire machine, with some of the fruit-holders omitted for the sake of clearncss; Fig. t3 is a. detail-view of the water-receptacle, on the line (l-G in Fig. 1; Fig. 7 is a rear-elevation of the upper part of the mechanism for supplying the apples to the fruit-holders; and Fig. S is a detail-view showing, in elevation, looking from right to left, a portion of the transferrng-mcchanism, together with a )ortica of the apple-paring machine with wlliich it coperates.

In the illustrated embodiment of the invention the endless conveyer, by which the fruit-holders are carried, is in the form of a rotary member or wheel 10, comprising a solid web or disk mounted and fixed upon a horizontal shaft 11, which is journaled to rotate in the frame 12 of the machine. Each fruit-holder comprises two'relativelymovable members consisting of stems 1B from which fingers 14 project in double rows, thefirigets of the two rows being substantially at right angles to each other, as shown in Fig. 4. The fingers on the two stems of each holder are so spaced that they ill) inat

iiiterlace, thus defining and inclosing a quadrilateral s )ace of which the diainetei may be varied liy moving the' stems toward and from each other. Each stem is provided with a shank Fixed to iin arm 15,each pair of arms heingpivoted nponastud 1G fixed in the conveyer-wlieel 10. To move the arms and the stems toward and from each other the arms of each pair are conneeted,by links 17 and 18 respectively, with a lever 19 which iis-fixed upon a short shaft 21 'ournaled transversely in a bearing,r in the w eel. At its rear end each shaft 21 is provided with an arm 22 which rejects inwardly and engages a cani 23. T iis cam, by means of a sleeve 24, is fixed rigidly upon the frame 12, around the shaft 11. Accordingly, as the conveyerwheel rotates the arms 22, in followingr the periphery of the cam, are moved outwardly at certain points in their path of movement, thus rocking the shafts 21 and the levers 1i), and moving the arms 15 and the stems 13 of each pair apart, thus o iening the fruitholders. To close the frnitiolders upon the fruit contained therein at the proper times, a spring 2T connects each arin 22 with the wheel 10. as shown in Fig. 3, this sprin aeting resiliently when the arm 22l reacios a low )oint iu the cani 23, to move the parte irection to swing the stems 13 together and cause the lingers 14 to approach each other.

'lhe receptacle for the waterin which the fruit is floated is in the form of an elonated tank 31 mounted upon the frame 12 ielow the coiiveyer-wlieel, in such osition that the lowermost fruit-holders cip into the water in the tank. The apples or other fruit are delivered, one by one, to the successive fruit-holders through a chute B2, which discharges into the holders as they reach a substantially horizontal position at. the right-hand aide of'the conveyer-wheel, as shown in l"i r. l. At this time the fruitholder which is to receive an apple is in wide-open position, owing to the fact that the corres bonding arm 22 rests upon a high part 2G o the cam 23. The fruit-holder remains in this o ien position while it is moving downwardly into the water-receptacle, ii nd at this time the iipple is held within the fruit-holder by means of a stationary curved nupporting-surface 83 (Fig. 1).

lhe conveyor-wheel is moved intermittently, through partial rotations by means whiei will he presently described, and each movement. is sullicient to carry each of the fruit-holders from one of the positions illustrated in Fig. 1 to the next position illustrated therein, that is to say, through a space equal to the distance between two adjacent. fruit-holders. lhe arrangement is auch that two fruit-holders with the fruit therein are always immersed in the water, and in the position of rest of'the parts these two fruit-holders are held wide open, so that the fruit thereinis free to assume its natural'jpositionfof flotation. During the intervening movements of the conveyor-wheel,

however, the two fruit-holders in question are caused to close upon and gri) the fruit therein. As shown in Fig. 2, this closing movement is caused by forming the cani 23 with a low point ad'acent the extreinity of the high part 2G, followed by a second high part 2li. The low point in uestioii is enlaged by each arm 22 while t ie corresponding fruit-holder is moving from one of the positions of immersion to the other, while the high part 25 holds each fruit-holder open during the dwell just preceding its withdrawal from the water.

Since the movement of the fruit-holders through the water, during the rotative movements of the conveyor-wheel, tends to agitato the water, we employ an arrangement adapted to minimize this agitation, so that there niay be as little interference as possible with the riglitinfr-aetion of the water u ion the fruit. To t iis end we irovide` within the tank 31, hallles in the ioriii oi parallel walls Ilfi which are spared apart only sullieiently lo permit the fruit-holders to pass freely between thcin. These walls` 3i prevent waves from traversing: the water-receptacle transversely and iinpiugini: upon the fruit. During the movements ol the fruit-holders the wiiter is forced between the walls 34 toward the left-hand end of the tank 31. Since the upper edges of the walls 3-1- aie near the upper lever of the water. the water so moved may pass freely over them into the tank 31, nml then find its way quietly hack between the walls B4 by means of openings .'h'i at the bottom. This arrangement is such that the violent agitation produced by the movement of the fruit-holders is immediately cheeked when the fruit-holders come to rest, and the fruit iloala in a tranquil body of wiiter during the. dwells in the movement ot the conveyer, while at the. .same time we are enabled to use a tank of large capacity, adapted to contain a quantity of water which will not require frcquent replenisliing to maintain the necessary level.

Tn the machines oi' the previous applicationi-i iibove referred to the endlesa conveyor, in the forni of chains passing over rollers, was arranged to he immersed at its upper portion in the water-tank or receptacle, and consequently it tended to constantly withdraw more or less water therefrom, which was cau ht in a lower tank er receptacle and conveye back to the upper tank hy suitable means. The resent arrangement not only dispenses witi the immersion of the conveyer in the water, but also is auch that any water carried upwardly by the fruit-holders may drop back directly into the tank in lill.

which the nipples are floated, thus substantiallysiinpli ying themachinein this respect, and preserving the conveyer against the injurious action of water upon its mechanism.

In order to deliver the apples one by one to the fruit-holders through the chute 32, We employ a mechanism shown articularly in Figs. 5 and 7 The su ply otP apples is contained in a hopper 36 iiaving three converging walls and one vertical wall. Close to the inner surface of this front vertical wall is a disk or wheel 37, which is fixed to the shaft 11 so as to rotate in unison with the conveyorwheel 10. The disk 37 is provided with a series of substantially hemisplicrical scoops 38, which are equal in number to the fruit-holders on the conveyer-Wheel. In front of each scoop is a concave seat 39, the seat and the scoop together being adapted to support and raise one apple from the mass in the hopper. The size of these parts is such, however, that they will not support two apples even of the smallest size, and in case two or more apples are raised from the mass by any one of the scoops one or'inore of these apples will roll oil' either from the rear-side of the scoop or else forwardly iuto the recess 41 in front of the support 39.

In order that the apples may be dis charged from the scoops into the chute, each scoop has a recess 42 in its rear edge, and a resilient wiper 48 is mounted upon a bracket 44, fixed to the chute 32 in such a position that this wiper enters the recess 42 whenv the scoop reaches a position opposite the end oi the chute. The wiper thus engages the apple and discharges it from the scoop into the chute. At each partial rotation of the conveyer-wheel the mechanism just described acts to discharge an apple into the chute, this apple rolling down the chute, through the action of gravity, and entering the fruitholder which is in position to receive it.

The means for imparting intermittent partial rotation' to the conveyer-wheel 'are shown particularly in Figs. 1 and 2. A. bellcrank lever, comprising arms 45 and 46, is pivoted on a stud 47 on the frame 12, and the arm 45 of this lever carries a pivoted dog lf8 which cooperates with a series of pins 49 on the rear of the eonveyer-wheel. l`he dog is controlled by a spring 51 which permits it to pass idly by the pins i9 at each downward movement of the arm 45, but on the succeeding upward movement the dog engages one of the pins ositively, and thus moves the conveyor-w ieel through the necessary distance. To actuate the lever for this purpose its lower arm 4G is provided with a cain'rollei' 52, which engages a cam-path 58 in the front surface of a cam 54. This cam is fixed upon a cam-shaft 55 which is rotated constantly by means shown in Fig. 5. These means comprise gears 56 by which the cam shaft is connected with a power-shaft 57.

The power-shaft is provided with any suitable means, such as fast and loose pulleys 58 and 59, through which it ma be connected, by a belt 61, with an suitab e source of power. In order that tie conveyor-wheel may be held firmly a ainst accidental rotation during the dwel s of its successive movements, we employ lockiiig-inechanism comprising a plunger G2 which co crates with a series of notches 63 in the periphery of the conveyorwheel. This plunger slides through a bearing 64 in the frame of the machine, and is normally held in operative position by a sprng65 coiled about the plunger. flic left-hand end G6 of the plunger spans and slides upon the cam-shaft 55, as shown in dotted lines in Figs. 1 and 2, and it is provided with a cam-roller 67 which engages the eriphery of a cam G8 fixed on the camsha. This cam, as shown in dotted lines, is provided with a high point which acts to withdraw the plunger and unlock the conveyer-wheel just beiore and during each rotative movement. thereof.

T o discharge the apples from the fruitholders and iinpale them upon a fork of the apple-paring machine, or transfer them to an analogous instrumentality of any machine which it is desired to feed by means of the present invention, we employ a plunger 71 which slides horizontally through bearings 72 on the frame of the machine. This plunger is ada )ted to pass axially throu h the one of the ruit-holders which is in iiorizontal position at the left of the conveyer-wheel, as shown in Fig. 2. To actuate the plunger it is rovided with a pin 7 3 which is embraced liy the forked upper end of a lever 74, this level' being pivoted, at its lower end, upon a stud 75 on the frame of the machine. A pin 7G, projecting from lthe lever 74, is embraced by the slotted end of a rod 77, and the lefthand end of this rod is forked so as to be guided upon the cam-shaft 55. A spring 78 connects the rod with the pin 7G, so that normally the pin is at the left-hand end of the slot in the rod, as shown in Fig. 1. i cam-roller 79, journaled upon the rod 77, engages a cam-slot 8l in a cam 82 which is fixed upon the cam-shaft. This cam is so formed, as shown in Fig. 2, that during each dwell in the movement of the couveyerwheel the rod 77 is drawn to the left, thus swinging the lever 74 and sliding the plunger 71 in the same direction. The plunger accordingly passes through the fruit-holder, and its concave left-hand end engages the apple therein and expels it horizontally from the fruit-holder. In the di'awin an apple-paring machine is illustrated, in dotted lines, in the position which it occupies when arranged to be fed by the present machine, one of the forks 84 of the paring-machine being in such position that the apple will be iinpaled upon -it by th'e action of the plunger 71, with the core-axis of the ap le coinciding with theaaxis of rotation op the fork.

In order that the apple may be completely iinpaled upon the fork without regard to the size of the apple, it is necessary that a part, at least, oi' the Amovement Vof the plunger 71 be yielding, so that in the case of a large apple the movement of the plunger may be arrested by the apple earlier than in the case of a smaller a ple. This mode of operation is permitted y the spring 78 above referred to, which V yields after the apple has been completely imp'aled and during the last part of the left-hand movement oi the rod 7 In order that the apple may be impaled in the proper position upon thel fork 84, it is necessary to guard against any accidental angular movement of the a iple, durin the transfer-inovement from the fruit-ho dei, by which its core-axis may be disalined with am axis of ai@ finit-holder. To this end we provide means by which the apple is held firmly against the-end of the langer T1 during the transfer-movement. `or this purpose a bifurcated )late oi' abutment 91 is carried by a stem 2 projecting from ii lever-arm 93. This lever-arm is joui'naled upon a stud 9i in the frame of the machine, and is integral with n second lever-arm 95 which carries a cani-roller 9G engaging .the periphery of a cam 97 fixed upon the camshaft b5. A spring 98, coiled about the hub of the lever-arm 923, normally holds this arin in its right-hand position, clear of the forks ot' the paring-machine and adjacent to the end el the 'fruit-holder, as shown in Fig. 1. At this time the cani-roller 96 rests upon a low point'upon the cani 97. Just before the traiisi'er-inoveinent of the plunger 71, after the coiiveyer-wheel next comes to rest the abutment 9i receives ai'slight further rightliand movement so that it enga es the apple at the end ot its core-axis. `he plunger then advances, and the abutment yields to the transfer-movement through its resilient support by the spring 9S. This engagement with the apple continues until the iinpalingmovement has been completed. Before the withdrawing-movement of the plunger 71 occurs, however, the cam-roller 96 is engaged by a high point on the cam 97, as

shown in dotted lines in Fig. 2, so that the abutment 91 is momentarily held, and thus prevented from forcing the apple of the fork again. 'llie illustrated machine is adapted to coiiperate with an applearer of welllmown form, in wliiehtwo orks are employed, as shown in Fig. 8, these forks being mounted upon a rotary carrier so that after auch fork ias received an apple it is swung through a half-rotation, as shownby the arrow in Fig. 8, to the position 'of operation in which the applel ispared. This movement of the `foi-es 'occursuwhile thel abutment 91-'is held as'g'ust described, the downwardiswinging movement of the fork being permitted by the bifurcated form of the abutment.. i` After the fork has performed this transfer-movement the cam-roller 9G engages a lower part of the cam 97, owing to tho continuous rotary movement of the latter, and thus is permitted to return to the normal position of Fig. 1.

In order to effectively prevent the impaling-meohanism from accidentally forcing the apple too far upon the fork, as might occur 1n the case of a soft or partly decayed apple owing to the slight resistance of its substance to the iinpaling-operation, we provide a positive stop to arrest the movement of the abutment 91, thus causing this abutment to act to positively arrest the inipaling-movement of the apple at the pro )er point. This stop, in the case of an app e-paring machine, is preferably mounted upon the fork-carrier, and for this purpose we employ, as shown in Fi s. 2 and 8, a lug 85 projecting from the for i-carrier 99 in position to engage and arrest the stud 92 at the proper point.

The operation of the machine as a whole is as follows: At each dwell of the conveyorwheel an apple is discharged into one of the fruit-holders through the chute 32,- and during the next succeeding movement of the conveyer-wliecl this apple is conveyed from the position 4,0, in Fig. 1, to the position DO, tho fruit-holder during this movement remaining in o )en position. At the next movement of tie conveyer-wheel the apple is brought to the position (l0, where it floats in the water and begins to assume a )osition of equilibrium therein. Durin the next movement of the conveycr-whee the fruitholder is momentarily closed upon the apple to prevent disturbance in the angular position of the apple, and the apple is thus ronght to the position 70, where the fruitholder is again opened. The apple now completes its riglitin movement in the water. At this point Itglie axis of the fruitholder is substantially vertical, as shown in Fio. 1, owin to the fact that the fruithoders are p aced upon the conveyer-wlieel with their axes tangent to a circle concentric with the shaft 11. Accordingly, at the next movement of the wheel the fruit-holder is closed upon the apple with the apple in such a position that its cere-axis coincides with the axis of the fruit-holder. The apple is now brought, by three successive movements of the'conve er, to horizontal position in line with the orlc of the paringmachine and is then dischar ed, as above describe from the fruit-holder and iin- Apaled upon the fork, the operation of the feeding-machine being thus completed. The

The apple-parer is not shown inidetail, as

it may be of any ordinary or suitable form,`

but it is illustrated as connected'with'the power-shaft 57 by means of sprockets and a.

chain 100, so that it may be driven positively in timed coperation with the feeding-machine.

The machine liereinbefoi'e described isl ada ted to feed apples or other fruit to any. mac iine of which the operation necessitates:

a definite positionI of the axis ofthe fruit. B the use of a conveyer inthe form of a wheel, together with the fruit-holders arranged thereon in thepeculiar position d e, scribed, the machine is rendered simple in,I

construction while providing, at the same time, for the simultaneous immersion, inthe water-tanlnlof a luralit of fruits, whereby ample time is a orded or the righting action of the water upon each-fruit notwithstanding the fact that the machine operates fast enough to kee an ordinary powerdriven apple-parer ully su plied.

The means, above descri ed, for transferring the fruits from the holders to the fork or other receiving-device not onlyact to prevent the accieeiitalangular movement, during the transferring-action, oi the axis of the fruit from its osition in alinement with the axis of the ruit-holder, but said means also tend, on the other hand, tpmove the fruit to proper axial position in case it has not been completely ri lited beforehand by,- flotation this result l ein dueto the pressure of the plunger and't e abutment against the flattened ends of the fruit.

Our invention is not limited to the embodiment thereof hereinbefore described and illustrated in the accom anyingdrawings, in various other orms-Within the nature of the invention,

but it may be embodie as hereinafter claimed.

I claimf- 1. A 'fruit-feedin machine having, in combination, an en ess conveyer provided with a series of outwardlyroiecting fruitholders adapted to open an close laterally; means for moving the conveyer intermittently and for, introducing fruit to and discharging it from the successive fruit-holders; areceptacle located beneath the lower-- mostl ortion of the ,conveyerl and adaptedV to contain axliquid in whichthe lowermost fruitliolders are immersed, and means'forv closing the Iholders successively upon the fruit while in said receptacle.

2. A 'irait-feeding1 machine having, in.:

combination, an en ss conveyer ymovable .in aplane at an angle to the horizontal and provided with a seriesi-Y of fruit-holders adapted to o en and close laterallygmeans forrmo'vin t ec'onve'yer intermittentlyand for intr ucing fruit to and discharging it from the fruit-holdersin the` direction of their axes; a rece tacle adaptedto contain a liquid in which the'fruit ina be loated, said 'receptacle being mountec be neathlaportion o the conveyer upon which the fruitaholders are downwardly-directed so lthat said fruit-holdersmay -be-,imiiiersedv in theliquid without the immersion of any portion of the: conveyer;` and means .for

closing the holders successively upon. the ruitwhilejso immersed.

3. A. rfruibfeedin combination, an eniliess conveyer provided with a series of fruit-holders adapted to open andlclose laterally; means for moving the conve ei; intermittently through a curved pat ina plane at an angle to the horizontal; means for introducing fruit to and discharging it from the successive fruitholders -during dwells in the movementnf-l tlieiconveyer; and av receptacle located adjaceniil. ortion'ofthe conve er at which vthe fruitiolders are in depen ing position,

the receptacle beingadapted to contain a liquid to float the fruit in the fruitholders machine having, in,4

and the conveyer being adapted to lower the Vfruit-holders into and raise them -from said receptacle; thefruit-holders being arranged, uponythe conveyer with their axes at. such an angle that they are in substantially vertical osition atzthepoint of emergence from t e receptaele.

4,413. fruibfeeding machine having, in combination, a conveyer-Wheel rotatablein 'afplane at an angleto the horizontal a series l[fruit-holders, mounted upon the wheel and adaptedLto open and close laterally; means for moving'the conveyer-wheel intermittently and for introducing fruit to and discharging it from the fruit-holders axially during t ie dwells in the movements of the wheel; a receptacle. located beneath -the lowermost portion ofv the conveyerwheeland adapted to contain a liquid in which the lowermost fruit-holders are immersed; and .means for closing the fruitholders successively upon the fruit while in said rece tacle.

5. A ruit-feeding machine having, in combination', a conveyer-wheel rotatable in a planefatan angle to the horizontal; a.

-sei'ies of fruit-holders mounted u on. the. `Wheel and adapted to open and c ose laterally; meansfor moving the, .coi ivey er wheell intermittently and for.l introducing fruit to and 1discharging it from the fruitholders` axially during the dwellsyn the movements offthefwheeli-a receptacle located beneath tlie lowermost portion ofthe conveyer-Wheel and adaptedto ,contain 'a llli liquid in which the lowermost fruit-holders are immersed; and means for closing the vfruit-holders successively upon the fruit while in said receptacle, the fruit-holders being mounted u on the conveyer-Wheel at such an angle t at their axes lie in substantially vertical position at the point yof their emergence from the receptac e.

li. A fruit-feeding machine havin in eombinatlon, a conveyor-wheel rotatab e in a vertical plane; a series of fruit-holders mounted upon the wheel and adapted to open and c ose laterally; means for moving the conveyer-wheel intermittently and for introducing fruit to and discharging it from the fruit-holders axially during the dwells in the movements of the wheel; a receptacle located beneath the lowermost portion of the conveyor-wheel and adapted to contain a liquid in `which the lowermost fruit-holders are immersed; and means for closing the fruit-holders successively upon the fruit while in said receptacle, the fruitholders being mounted upon the `wheel with their axes tangent to a circle concentric therewith, so that the fruit-holders, at the oint of einer nce from the receptacle, are in substantialigytvertical position.

7. A fruit-feeding machine having, in combination, a fruit-holder adapted to open and close laterally and to receive and deliver a fruit b movement of the fruit in the direction o its axis; means for delivering fruit to the fruit-holder; means for moving the fruit-holder from the point at which the fruit is received to a position of presentation with respect to a. machine to which the fruit is to be delivered; and means, for discharging the fruit from the fruit-holder, comprising abutments movable axially with respect to the fruit-holder and adapted to engage the fruit firmly at opposite points and maintain such en agement during the axial movement by wnch the fruit 1s transferred from die fruit-holder to the machine which is to be fed.

8. A fruit-feeding machine adapted to cooperate with an apple-parer and t0 deliver appies one by one to the fork of the iarer, the fcedinmmachine having, in comiination, a fruitiolder adapted to grip an apple laterally and to receive and discharge the apple by an axial movement of the ap i e with respect to the holder means for elivcring an a )ple to the fruit-holder; means for moving tlhe inuit-holder from the osition of reception to a position in whici its axis is in alinement with the axis of the fork of the paring-machine; and means for transferringl the apple from the fruitholder in the latter position to the fork, said means comprising a plunger movable axially chron h the fruit-holder in the direction of sai fork, and an abutment adapted to yieldingly engage the apple opposite to the point of enga ement of the plunger `and to hold the app e a ainst the plunger yuntil it has been impale upon the fork of fthe parer.

9. A fruit-feeding machine adapted to cooperate avith an apple-parer and to deliver apples one by one to the fork of the parer, Ithe feedinmachine having, in combinallion, a fruit-holdcr adapted to gri i an apple laterally and to' receive and i ischarge the apple by an axial movement of the ap pie with respect to the holder; means ior deli-vering an apple to the fruitholder; means for moving the lruit-holder from the )osition of reception to a position in which its axis is in alinement with the axis of the fork of the paring-machine; and means for transferring the apple from the fruit-holder in the latter position to the fork, said means comprising a plunger movable axially through the fruit-holder in the direction of the fork, and an abutment adapted to yieldingly engage the ap ile o )posite to the point of engagement of tlie p anger and to hold the apple against the plunger until it has been impaled upon the fork; said abutment being blfurcated to permit the forli to be withdrawn by a transverse movement before the abutment returns to normal position.

l0. A fruit-feeding machine adapted to cooperate with an apple-parel' and to de` liver apples one by one to the fork of the iarer, the feeding-machine having, in combination, a 'fruit-holder adapted to grip an a plc laterally and to receive and discharge the ap )le by an axial movement of the ap- )le witlh respect to the holder; means for deivering an a )ple to the fruit-holder;means for moving tlie fruit-holder from the osition of reception to a position in whici its axis is in alinement with the axis of the fork of the paring-machine; and means for transferring the apple from the fruitholder in the latter position to the foi-lc, said means comprising a plunger movable axially through the fruit-holder in the direction of the forli, an abutment adapted to yieldingly engage thc ap )le opposite to the point of engagement of tlie to hold the apple against the p ungcr until it has been impaled upon thel fork, and means for )ositively arresting the abutment in a position to limit the impaling-movcment.

11. A fruit-feeding machine adapted to coperate with an apple-parer and to deliver apples one by one to the fork of the tirer, the feedin machine having, in comiination, a fruitiolder adapted to grip an alpple laterally and to receive and discharge tie apple by an axial movement of the apple with respect to the holder; means for delivering an apple to the fruit-holder; means for moving the fruit-holder from the langer and 1 position of reception to a positionin which lts axis is in alinement with the axis of the fork of the paring-machine; means for transferring the a ple from the fruit-holder in the latter position to the fork, said means comprising a plunger movable axially through the fruit-holder in the direction of the fork, nn abutment adapted to yieldingly engage the apple op osite to the point of engagement of the p unger and to hold the apple against the plunger until it has been impaled upon the iorlr, and means for hold ing the abutment momentarily in osition, to permit the fork and the app e to be moved away therefrom transversely, and for thereafter returning the abutment to normal position before another fork of the paringmachine assumes the position of presentation.

FRANKLIN B. PEASE. JOHN WV. PEASE.

Witnessesz L. THON, C. W. CARROLL.

Copies of this patent may be obtained for ve cents each, by addressing the Commissioner of Patents, Washington, D. C. 

